What are the core functions of Maths module?

Attenuvert, mix, and slew actions with additional features.

How can Maths be used for audio level control?

By passing signals through channels 2 or 3 for volume adjustment.

To moderate the movement of waveforms, affecting pitch changes.

By setting the rise and fall cycle, connecting it to trigger a kick.

By passing audio through channel one and using the gate signal from channel four.

Maths is a versatile Eurorack module that simplifies its functions into attenuvert, mix, and slew actions, offering volume control, mixing capabilities, and voltage change manipulation across its four channels.
The module's unique features allow for a wide range of applications, including audio level control, waveform moderation, clock division, envelope following for sidechaining, waveform creation through envelope combination, VCA functionality, and more, making it a multifaceted tool for sound manipulation and modulation in modular synthesis setups.

What are the core functions of Maths module?
Attenuvert, mix, and slew actions with additional features.
How can Maths be used for audio level control?
By passing signals through channels 2 or 3 for volume adjustment.
What is the purpose of attenuators in Maths module?
To moderate the movement of waveforms, affecting pitch changes.
How does Maths function as a clock divider?
By setting the rise and fall cycle, connecting it to trigger a kick.
In what way can Maths be employed as a VCA?
By passing audio through channel one and using the gate signal from channel four.

00:00

Maths is the top-rated Eurorack module, popular for its versatility and capabilities beyond the listed functions.
The module simplifies its functions into three core actions: attenuvert, mix, and slew, with additional features for each.
Attenuvert involves volume control with the ability to invert voltage levels, with four attenuators for each channel.
Maths acts as a mixer, combining and manipulating the four input channels to produce a mixed output.
Slew, found in channels 1 & 4, slows down voltage changes, affecting the rate of voltage change.
Inputs are located above the line, while outputs are below it, with the module's top part serving as inputs and the bottom part as outputs.
Maths can be used for audio level control by passing signals through channels 2 or 3 for volume adjustment.
Attenuators can moderate the movement of waveforms, affecting pitch changes and phase cancellation.
The mixer combines inputs from the four channels into a sum output, with additional options for output configurations.
Channels 1 & 4 function as slew rate limiters, controlling the rate of voltage change, with options for linear, logarithmic, and exponential curves.

17:22

Use an envelope follower to sidechain Plaits by adjusting the rise and fall levels, connecting the signal to trigger a kick, and modulating with voltage if desired.
Utilize Maths as a clock divider by setting the rise and fall cycle, connecting it to trigger a kick, and adjusting the clock rate by shortening the rise and fall.
Combine two envelopes with Maths to create unique waveforms, modulate pitch or other parameters, and experiment with summing negative and positive values for different outputs.
Employ Maths as a VCA by passing audio through channel one, using the gate signal from channel four to open up the filter, adjusting rise and fall settings for proper sound modulation, and utilizing it as an ASR gate for attack and release control.